Principles and Applications of Quantum Computing Using Essential Math

Автор: literator от 29-12-2023, 03:18, Коментариев: 0

Категория: КНИГИ » ПРОГРАММИРОВАНИЕ

Название: Principles and Applications of Quantum Computing Using Essential Math
Автор: A. Daniel, M. Arvindhan, Kiranmai Bellam, N. Krishnaraj
Издательство: IGI Global
Год: 2023
Страниц: 252
Язык: английский
Формат: pdf (true)
Размер: 10.1 MB

In the swiftly evolving realm of technology, the challenge of classical computing's constraints in handling intricate problems has become pronounced. While classical computers excel in many areas, they struggle with complex issues in cryptography, optimization, and molecular simulation. Addressing these escalating challenges requires a disruptive solution to push the boundaries of computation and innovation. Principles and Applications of Quantum Computing Using Essential Math, authored by A. Daniel, M. Arvindhan, Kiranmai Bellam, and N. Krishnaraj. This guide pioneers the transformative potential of quantum computing by seamlessly blending rigorous mathematics with quantum theory. It equips scholars, researchers, and aspiring technologists with insights to grasp and harness quantum computing's capabilities. By delving into quantum gates, algorithms, and error correction techniques, the book demystifies quantum computing, inviting exploration of Quantum Machine Learning, cryptography, and the dynamic interplay between classical and quantum computing. As the quantum landscape expands, this book acts as a vital companion, navigating readers through the converging realms of industry, academia, and innovation. Principles and Applications of Quantum Computing Using Essential Math arrives as a timely answer to the limitations of classical computing, providing scholars with an essential roadmap to navigate the quantum technology landscape. With its clear explanations, practical applications, and forward-looking perspectives, this book serves as an indispensable tool for unraveling quantum computing's mysteries and driving innovation into uncharted domains.

Researchers have focused increasingly on hybrid quantum computing and brain-computer interfaces. Scientists are investigating brain-computer interface technology and applying it to additional fields as neural technology and Artificial Intelligence evolve. The subject of brain-computer interface has progressed rapidly over the past decades, yet the underlying technologies and novel ideas behind seemingly unconnected systems are rarely summarized from the point of quantum integration. This study describes hybrid Quantum Computing and brain-computer interface applications, discusses present issues, and suggests future research. Ecologists could employ quantum computers because the statistical approaches they use have proven routes on them. If the hardware, opportunity, and imagination of quantitative ecologists coincide, quantum computing could leapfrog our understanding of complex ecological processes.

In the Chapter 2, the authors will discuss some of the many models and training methods that have been developed in the field of Machine Learning to address this learning challenge. Models like neural networks and stochastic gradient descent have their own “go-to” training algorithms, each with their own set of supporting terminology and communities of experts. Since the specifics of gate decomposition, compilation, and error correction all depend heavily on the physical implementation of qubits and quantum gates, it has been difficult to design quantum hardware capable of running such algorithms. Therefore, the authors can only provide asymptotic estimations of total execution times. Since developing quantum hardware is so prohibitively expensive, researchers are incentivized to use terms like “superior quantum algorithms” to justify their work. This has given rise to the contentious term “quantum supremacy” to describe experiments that definitively show a difference between classical and quantum levels of computational complexity.

Emerging technologies, including quantum information science and artificial education systems, have the potential to have significant implications for the future of human civilization. Quantum information, on the one hand, and Machine Learning (ML) and Artificial Intelligence (AI), on the other, consume their personal unique set of queries and contests that have been studied in isolation up until now. However, a recent study is starting to examine whether these disciplines can teach one another anything useful. The discipline of quantum ML investigates how quantum computing and ML may work together to find solutions to challenges in both areas. Major advancements in the two areas of effect have been made recently. Particularly relevant in today’s “big data” era is the use of quantum computing to speed up the solution of Machine Learning (ML) challenges. However, ML is already present in many state-of-the-art technologies and may play a crucial role in future quantum technologies.

The final chapter explores the synergy between emerging technologies, quantum information science, and artificial education systems. It examines the potential crossover between quantum computing and Machine Learning/Artificial Intelligence. The chapter delves into recent advancements in both domains and their implications for the future of technology and human civilization.

Скачать Principles and Applications of Quantum Computing Using Essential Math




ОТСУТСТВУЕТ ССЫЛКА/ НЕ РАБОЧАЯ ССЫЛКА ЕСТЬ РЕШЕНИЕ, ПИШИМ СЮДА!


Нашел ошибку? Есть жалоба? Жми!
Пожаловаться администрации
Уважаемый посетитель, Вы зашли на сайт как незарегистрированный пользователь.
Мы рекомендуем Вам зарегистрироваться либо войти на сайт под своим именем.
Информация
Посетители, находящиеся в группе Гости, не могут оставлять комментарии к данной публикации.